Scientists at the University of South Florida (USF), the National Institutes of Health (NIH), Columbia University and the New York State Psychiatric Institute reported that the low-expression form of the gene monoamine oxidase A (MAOA) is associated with higher self-reported happiness in women. No such association was found in men.
The findings appear online in the journal Progress in Neuro-Psychopharmacology & Biological Psychiatry.
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Measurements of five protein biomarkers in the cerebrospinal fluid helped to differentiate Alzheimer’s disease from Parkinson’s disease with dementia and from dementia with Lewy bodies in a cross-sectional study of individuals at Swedish neurology and memory disorder clinics.
The diagnostic accuracy of this panel of tests in distinguishing Alzheimer’s disease from dementia with Lewy bodies “is at least in the same order of magnitude as that obtained with dopamine transporter imaging, and with a lower cost,” Dr. Sara Hall of the department of clinical sciences, Lund (Sweden) University, Malmö, and her associates wrote in a study published Aug. 27 in Archives of Neurology.
In addition, one of the five biomarkers in this panel appears to differentiate Parkinson’s disease from atypical parkinsonism such as that seen in progressive supranuclear palsy, multiple system atrophy, or corticobasal degeneration, the researchers noted.
Their results confirmed those of previous studies postulating that CSF total tau (T-tau) and phophorylated tau (P-tau) levels are higher in Alzheimer’s than in the other two dementias, whereas amyloid-beta (Abeta) 1-42 levels are lower in Alzheimer’s than in the other two dementias.
(Source: acep.org)
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Columbia neurophysiologist David Sulzer took his first piano lessons at the age of 11 and was playing his violin and guitar in bars by age 15. Later he gained a national following as a founder of the Soldier String Quartet and the Thai Elephant Orchestra—an actual orchestra of elephants in northern Thailand—and for playing with the likes of Bo Diddley, the Velvet Underground’s John Cale and the jazz great Tony Williams.
From left, Brad Garton and David Sulzer discuss turning brain waves into music on WHYY/PBS in Philadelphia.
It was only after arriving at Columbia, however, that the musician-turned-research-scientist embarked on perhaps his most exotic musical venture—using a computer to translate the spontaneous patterns of his brain waves into music.
With the help of Brad Garton, director of Columbia’s Computer Music Center, Sulzer has performed his avant-garde brain wave music in solo recitals and with musical ensembles.
Last spring, Sulzer presented a piece entitled Reading Stephen Colbert at a conference in New York City sponsored by Columbia and the Paris-based IRCAM (Institut de Recherche et Coordination Acoustique/Musique), a global center of musical research.
Sulzer, a professor in the departments of Psychiatry, Neurology and Pharmacology, wore electrodes attached to his scalp to measure voltage fluctuations in his brain as he sat in a chair reading a book by the comedian. Those fluctuations were fed into a computer program created by Garton, which transformed them into musical notes.
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Like a melody that keeps playing in your head even after the music stops, researchers at the University of Illinois’s Beckman Institute have shown that the beat goes on when it comes to the human visual system.
In an experiment designed to test their theory about a brain mechanism involved in visual processing, the researchers used periodic visual stimuli and electroencephalogram (EEG) recordings and found, one, that they could precisely time the brain’s natural oscillations to future repetitions of the event, and, two, that the effect occurred even after the prompting stimuli was discontinued. These rhythmic oscillations lead to a heightened visual awareness of the next event, meaning controlling them could lead to better visual processing when it matters most, such as in environments like air traffic control towers.
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Zebrafish Study Explains Why the Circadian Rhythm Affects Your Health
The circadian rhythm is regulated by a “clock” that reacts to both incoming light and genetic factors.
In an article now being published in the scientific journal Cell Reports, it is demonstrated for the first time that disruption of the circadian rhythm immediately inhibit blood vessel growth in zebra fish embryos.
During experiments with hours-old zebra fish embryos, the researchers manipulated their circadian rhythm through exposing them to lighting conditions varying from constant darkness to constant light. The growth of blood vessels in the various groups was then studied. The results showed that exposure to constant light (1800 lux) markedly impaired blood vessel growth; additionally, it affected the expression of genes that regulate the circadian clock.
"The results can definitely be translated into clinical circumstances. Individuals with disrupted circadian rhythms — for example, shift workers who work under artificial lights at night, people with sleeping disorders or a genetic predisposition — should be on guard against illnesses associated with disrupted blood vessel growth," says Lasse Dahl Jensen, researcher in Cardiovascular Physiology at Linköping University (LiU), and lead writer of the article.
Such diseases include heart attack, stroke, chronic inflammation, and cancer. Disruptions in blood vessel growth can also affect fetal development, women’s reproductive cycles, and the healing of wounds.
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A new study reveals that the brain clock itself is driven, in part, by metabolism, the production and flow of chemical energy in cells. The researchers focused primarily on a phenomenon known as “redox” in tissues of the SCN from the brains of rats and mice.
Redox represents the energy changes of cellular metabolism (usually through the transfer of electrons). When a molecule gains one or more electrons, scientists call it a reduction; when it loses electrons, they say it is oxidized. These redox reactions, the researchers found, oscillate on a 24-hour cycle in the brain clock, and literally open and close channels of communication in brain cells.
“The language of the brain is electrical; it determines what kind of signals one part of the brain sends to the other cells in its tissue, as well as the other parts of the brain nearby,” said University of Illinois cell and developmental biology professor Martha Gillette, who led the study.
“The fundamental discovery here is that there is an intrinsic oscillation in metabolism in the clock region of the brain that takes place without external intervention. And this change in metabolism determines the excitable state of that part of the brain.”
The new findings alter basic assumptions about how the brain works, Gillette said.
“Basically, the idea has always been that metabolism is serving brain function. What we’re showing is metabolism is part of brain function,” she said. “Our study implies that changes in cellular metabolic state could be a cause, rather than a result, of neuronal activity.”
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Vanderbilt University researchers studying interventions for adolescents and young adults with autism are reporting that there is insufficient evidence to support findings, good or bad, for the therapies currently used.
The researchers systematically screened more than 4,500 studies and reviewed the 32 studies published from January 1980 to December 2011 on therapies for people ages 13 to 30 with autism spectrum disorders. They focused on the outcomes, including harms and adverse effects, of interventions, including medical, behavioral, educational and vocational.
• Some evidence revealed that treatments could improve social skills and educational outcomes such as vocabulary or reading, but the studies were generally small and had limited follow-up.
• Limited evidence supports the use of medical interventions in adolescents and young adults with autism. The most consistent findings were identified for the effects of antipsychotic medications on reducing problem behaviors that tend to occur with autism, such as irritability and aggression. Harms associated with medications included sedation and weight gain.
• Only five articles tested vocational interventions, all of which suggested that certain vocational interventions may be effective for certain individuals, but each study had significant flaws that limited the researchers’ confidence in their conclusions.
A Systematic Review of Vocational Interventions for Young Adults With Autism Spectrum Disorders
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Britain’s first bionic veteran has a new brain-controlled robotic arm that is transforming his life.
Andrew Garthwaite, 25, had his right arm blown clean off by a rocket-propelled grenade during a firefight with the Taliban in Afghanistan in September 2010. In January he had the state-of-the-art limb wired to his nervous system during a six-hour operation in Vienna, Austria.
Now he is getting to grips with his new body part and is able to ride his motorcycle and drive a car again. Mr Gathwaite, who lives with his new wife Kailey, also 25, in South Shields, Tyneside, said:
'It's been incredible. I thought I might never be the same. But my life is starting to get back to normal - I'm on my motorbike and I'm back in a car. I can do things that I never thought I would have been able to do'.
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Behavioral test shows promise in predicting future problems with alcohol
By administering a simple behavioral test, Yale researchers were able to predict which mice would later exhibit alcoholism-related behaviors such as the inability to stop seeking alcohol and a tendency to relapse, the scientists report in the Aug. 26 issue of the journal Nature Neuroscience.
"We are trying to understand the neurobiology underlying familial risk for alcoholism," said Jane Taylor, the Charles B.G. Murphy Professor of Psychiatry and professor of psychology at the Yale School of Medicine and senior author of the study. "What is encouraging about this study is that we have identified both a behavioral indicator and a molecule that explains that risk."
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